Relationship between blood urea nitrogen to serum albumin ratio and short-term mortality among patients from the surgical intensive care unit: a population-based real-world study

Background Patients admitted to the surgical intensive care unit (SICU) often suffer from multi-organ dysfunction and have a high mortality rate. Therefore, finding a simple but effective clinical indicator to predict the prognosis of patients is essential to improve their survival. The aim of this study was to investigate the relationship between blood urea nitrogen to serum albumin ratio (B/A) and short-term mortality among patients from the SICU. Methods All eligible adult patients admitted to the SICU from the Medical Information Mart for Intensive Care IV (MIMIC-IV) database were recruited for this study. Participants were divided into a death group (n = 638) and a survival group (n = 2,048) based on the 90-day prognosis, and then grouped by B/A quartiles. We used restricted cubic splines (RCS) to visually analyze the correlation of B/A with 30- and 90-day risk of death. Cumulative survival rates were estimated using Kaplan–Meier survival curves according to B/A quartiles and evaluated using the log-rank test. Cox proportional risk models were developed and sensitivity analyses were performed to explore whether B/A was independently associated with short-term outcomes in SICU patients. Receiver operating characteristic (ROC) curves were analyzed to ascertain the value of B/A for prognosticating 90-day outcome. Results A total of 2686 participants were included in the final study, and their 30-day and 90-day all-cause mortality rates were 17.61% and 23.75%, respectively. The differences in 30-day and 90-day mortality rates were statistically significant among the four groups of patients (all p < 0.001). RCS curves showed that B/A was linearly associated with the risk of 30-day and 90-day all-cause mortality in SICU patients (χ2 = 0.960, p = 0.811; χ2 = 1.940, p = 0.584). Kaplan–Meier analysis showed that the 90-day cumulative survival rate gradually decreased as B/A increased, with patients in the highest quartile of B/A having the lowest survival rate (p < 0.001). Cox regression indicated that elevated B/A (> 9.69) was an independent risk factor for 30-day and 90-day all-cause mortality in SICU patients. The analysis of ROC curves demonstrated that B/A exhibited a significant predictive ability for 90-day mortality, with an optimal threshold of 6.587, a sensitivity of 56.9%, and a specificity of 64.8%. Conclusions Elevated B/A (> 9.69) on admission was an independent risk factor for short-term mortality in SICU patients, and clinicians should pay more attention to this group of patients and intervene clinically at an early stage to reduce mortality. Supplementary Information The online version contains supplementary material available at 10.1186/s12871-023-02384-7.


Introduction
With the continuous progress of medicine and the construction of subspecialization, the surgical intensive care unit (SICU) has provided better protection for the treatment and care of surgical perioperative patients, especially for critically ill surgical patients, and thus has significantly reduced the mortality rate of patients [1][2][3].Nevertheless, the number of patients admitted to SICU continues to increase, accounting for nearly one-third of ICU patients, and the mortality rate of SICU patients remains high, even up to 50% in some less developed countries [4][5][6].Therefore, identifying high-risk factors for death in SICU patients are essential to reduce mortality.
Blood urea nitrogen (BUN) is a byproduct of protein breakdown within the human body and is primarily eliminated through renal excretion.Consequently, its concentration serves as a significant determinant of renal function, metabolic condition, and nutritional status [7].A case-control investigation revealed that elevated BUN levels were associated with a heightened likelihood of postoperative stroke subsequent to cardiac surgery [8].Additionally, serum albumin, a negative acute phase reactant, has demonstrated prognostic value in various critical ailments, indicating an unfavorable outcome [9,10].The blood urea nitrogen to serum albumin ratio (B/A) is a novel inflammation prognostic marker that is calculated from two simple indicators, including urea nitrogen and albumin.It has been reported that the B/A was an independent risk factor for the prognosis of patients with a variety of critical illnesses, including chronic heart failure [11], aspiration pneumonia [12], myocardial infarction [13], acute pulmonary embolism [14], sepsis [15], and gastrointestinal bleeding [16].
However, the aforementioned studies primarily concentrate on prognostic prediction in a singular critical illness, and there is a dearth of research investigating whether B/A also severs as a superior prognostic indicator for patients in the SICU.Consequently, this retrospective population-based study aims to examine the relationship between B/A and short-term outcomes (30day and 90-day mortality) in patients admitted to SICU by gathering pertinent data from the Medical Information Mart for Intensive Care IV (MIMIC-IV) database.

Data source
Our study used data from the MIMIC-IV database (version 2.0), which contains data on 315,460 hospitalized patients between 2008 and 2019.An institutional review board from Massachusetts Institute of Technology and Beth Israel Deaconess Medical Center approved the creation of the database.Two of the authors completed the online training course of the National Institutes of Health to obtain approval for use of this database (Record ID: 51774135; 36142713).The data was anonymized to protect patient privacy.

Study participants
Participants were selected for this study based on the following inclusion criteria: (1) Adult patients (age ≥ 18 years); (2) Patients admitted to the SICU for the first time.Subjects were excluded according to the following criteria: (1) Length of ICU stay < 24 h; (2) Died within 24 h of ICU admission; (3) Lack of key data such as BUN or albumin.

Variable extraction
We extracted the following variables from the MIMIC-IV version 2.0 database: sex, age, laboratory parameters, comorbidities, Sequential Organ Failure Assessment (SOFA) score, Simplified Acute Physiology Score (SAPS) II, use of mechanical ventilation (MV), length of ICU stay and hospital stay.Laboratory parameters included BUN, albumin, white blood cell (WBC), hemoglobin, hematocrit, platelet, creatinine, bicarbonate, glucose, total calcium, phosphorus, magnesium, chlorine, potassium, and sodium.Comorbidities included hypertension, diabetes, acute respiratory failure (ARF), atrial fibrillation, cirrhosis, chronic kidney disease (CKD), malignancy, acute myocardial infarction (AMI), subarachnoid hemorrhage (SAH), acute pancreatitis, sepsis, peripheral vascular disease, severe liver disease, acute kidney injury (AKI), peptic ulcer disease, and paraplegia.The B/A ratio was calculated from the ratio of BUN (mg/dL) to albumin (g/ dL).The SOFA score, SAPS II score, and all laboratory parameters were based on data collected within 24 h of admission to the SICU.

Statistical analysis
The basic clinical characteristics of patients were analyzed according to the death and survival groups.Data were expressed as mean and standard deviation or median (interquartile range) for continuous variables and number (percentage) for categorical variables.We compared categorical, normally and non-normally distributed continuous variables using chi-square test, t-test and Wilcoxon rank-sum test, respectively.
We used restricted cubic splines (RCS) to visually analyze the correlation of B/A with 30-and 90-day risk of death in SICU patients.Cumulative survival rates were estimated using Kaplan-Meier survival curves according to B/A quartiles and evaluated using the log-rank test.
We then used univariate and multivariate Cox regression models to estimate the relationship between B/A and short-term mortality in SICU patients.Variables with univariate P < 0.1 were included in the multivariate Cox regression analysis, and three models were finally constructed.Model I adjusted for nothing.Model II adjusted for age, SOFA score, WBC, hemoglobin, hematocrit, platelet, creatinine, bicarbonate, glucose, phosphorus, magnesium, chlorine, potassium.Model III, based on model I and model II, but further adjusted for MV, ARF, AMI, atrial fibrillation, SAH, cirrhosis, sepsis, CKD, malignancy, peripheral vascular disease, severe liver disease, AKI, paraplegia.Results were expressed as hazard ratio (HR) and 95% confidence interval (CI).
Receiver operating characteristic (ROC) curves were analyzed to ascertain the value of B/A for prognosticating 90-day outcome.
All analyzes were performed using Stata14.0 software and R language (version 4.2.0).A two-sided P value less than 0.05 was considered statistically significant.

Sensitivity analysis
To further assess the robustness of the results, we performed several sensitivity analyses.First, considering that the ability of the liver to synthesize albumin would be affected, we excluded patients with cirrhosis and severe liver disease for sensitivity analyses, respectively.In addition, considering that human albumin infusion prior to ICU admission may have some effect on the B/A value, we excluded patients who had received human serum albumin infusion 48 h before ICU admission for sensitivity analysis.

Study population and basic clinical characteristics
Overall, a total of 2686 participants were included in the final study according to the inclusion and exclusion criteria (Fig. 1).The basic clinical characteristics of all participants were shown in Table 1.The age of included patients was 63.13 ± 16.60 years, of which 1,489 (55.44%) were males and 1,197 (44.56%) were females.The main comorbidities were AKI (62.62%), sepsis (61.73%) and hypertension (43.86%).Patients in the death group were older and had higher SOFA scores, SAPS II scores, and higher proportions of mechanical ventilation.They had higher WBC, BUN, creatinine, phosphorus, magnesium, and potassium, and lower hemoglobin, hematocrit, platelet, and bicarbonate.These patients were also more likely to Fig. 1 The inclusion and exclusion criteria of study participants have ARF, atrial fibrillation, cirrhosis, CKD, malignancy, AMI, SAH, sepsis, peripheral vascular disease, severe liver disease, AKI, and paraplegia.The duration of hospital and ICU stays were shorter for patients in the death group.
Furthermore, an examination was conducted on the admission characteristics of patients admitted to the SICU, as outlined in Table 2.Among the entire cohort of patients included in the study, those who were transferred from the emergency room to the SICU exhibited

Relationship between B/A and all-cause mortality
For the entire study population, the 30-day and 90-day all-cause mortality rates were 17.61% and 23.75%, respectively.As seen in Table 3, the differences in 30and 90-day mortality rates were statistically significant among the four groups of patients (χ 2 = 97.957,p < 0.001; χ 2 = 116.310,p < 0.001).
After adjusting for confounding variables, a linear association between B/A values and 90-day all-cause mortality risk in SICU patients was observed (χ2 = 1.940, p = 0.584), as indicated in Fig. 2b.In addition, a similar linear association was observed in the RCS curve of the relationship between B/A values and 30-day all-cause mortality risk (χ2 = 0.960, p = 0.811), as shown in Fig. 2a.
Kaplan-Meier analysis in Fig. 3 comparing patients with different B/A values showed that the 90-day cumulative survival rate gradually decreased as B/A increased, with patients in the highest quartile of B/A having the lowest survival rate (log-rank test, χ2 = 121.980,p < 0.001).In addition, similar results were observed in the 30-day cumulative survival curves (Supplementary Fig. 1).

Analysis of ROC curves
The analysis of ROC curves demonstrated that B/A exhibited a significant predictive ability for 90-day mortality, with an optimal threshold of 6.587, a sensitivity   (AUC = 0.693), yielding a sensitivity of 62.1% and specificity of 66.4% (Fig. 4 and Supplementary Table 1).

Sensitivity analysis
After excluding 403 patients with severe liver disease, multivariate Cox regression analysis still suggested a significant association between elevated B/A levels and allcause mortality among SICU patients (Supplementary Table 2).In addition, after excluding 112 patients who had received human serum albumin infusion 48 h before ICU admission, Cox regression analysis was again performed and the results were consistent with our main findings (Supplementary Table 3).Then, we again performed a sensitivity analysis after excluding 459 patients with cirrhosis and found that elevated B/A (> 9.69) remained an independent risk factor for 90-day all-cause mortality in SICU patients (Supplementary Table 4).

Discussion
It is well-established that protein catabolism is heightened in critically ill patients, leading to an elevation in BUN levels.Renal reabsorption of urea nitrogen likewise affects the BUN levels of patients.Urea nitrogen is passively reabsorbed with water and sodium in the proximal renal tubule.In the more distal renal units, urea nitrogen reabsorption is also closely related to water reabsorption under the influence of antidiuretic hormone, which in turn is regulated by angiotensin II.When patients are dehydrated or have certain cardiovascular diseases occurring, sympathetic excitation and activation of the renin-angiotensin-aldosterone system can increase the reabsorption of urea nitrogen by the body.Therefore, high BUN level also reflects the state of renal hypoperfusion caused by hypovolemia or reduction of cardiac output [17].One study has already reported that BUN levels at admission and at discharge were predictors of prognosis in patients with heart failure, and patients with high BUN levels had a poorer prognosis [18].Additionally, serum albumin serves as a partial indicator of the organism's nutritional status and fulfills crucial functions such as maintaining plasma colloid osmolality, acting as an antioxidant, eliminating oxygen free radicals, serving as a carrier for various compounds, and inhibiting platelet activation and aggregation [19,20].Hypoalbuminemia has linked to decreased overall survival and increased recurrence rates in diverse malignant tumors [21,22].Notably, in recent studies, B/A has been employed as a novel prognostic predictor for critically ill patients.A study that included 800 hypertensive COVID-19 patients showed that urea nitrogen, albumin, and B/A were all valid predictors of in-hospital mortality, while B/A was a more reliable predictor than urea nitrogen and albumin [23].Another study on the long-term prognosis of patients with acute myocardial infarction in the ICU found that a higher B/A (> 7.83) was associated with four-year mortality and was an independent risk factor for long-term mortality in such patients.In the ROC curve, the AUC value of B/A was higher than that of systemic inflammatory response syndrome (SIRS) score and APACHE II score [24].In addition, there have been several studies showing that B/A has equally good predictive value in determining the prognosis of critically ill patients with certain surgical-related conditions.Allameh F et al. in their study analyzing the relationship between B/A and prognosis of patients with Fournier's Gangrene found that there was a significant difference between the B/A values of the death group and the survival group, and that elevated B/A was an independent predictor of death in patients with Fournier's Gangrene [25].Ye L et al. collected data on 2527 cardiac surgery patients in the MIMIC database and analyzed factors associated with prognosis, and found a significant relationship between elevated B/A and hospital mortality.B/A might serve as an independent risk factor for adverse outcomes in patients undergoing cardiac surgery, and the investigators reached similar conclusions in an external validation cohort [26].The present study, to the best of our knowledge, is the first to explore the association between B/A and the prognosis of patients admitted to the SICU.Our study found that patients in the death group were older and had higher SOFA scores, SAPS II scores, and higher proportions of mechanical ventilation.In this study, the enrolled patients were grouped by B/A quartiles and the differences in 30-and 90-day mortality rates were statistically significant among the four groups of patients.Kaplan-Meier analysis showed that the 30-day and 90-day cumulative survival rate gradually decreased as B/A increased, with patients in the highest quartile of B/A having the lowest survival rate.Cox regression analysis suggested that elevated B/A (> 9.69) was an independent risk factor for 90-day all-cause mortality in SICU patients.It is well known that albumin is produced by the liver, so when patients suffer from severe liver disease or cirrhosis, it can affect albumin levels [27,28].Therefore, this study conducted sensitivity analyses after excluding patients with severe liver disease or cirrhosis and those who had been infused with albumin within 48 h of admission to the hospital, and still ended up with the same conclusion.
The present clinical risk assessment of critically ill patients primarily relies on the utilization of APACHE II score, SOFA score, SAPS II score, and SIRS score [29,30].The prognostic predictive efficacy of these conventional scoring systems in the clinical management of critically Fig. 4 ROC curves for predicting 90-day mortality in patients admitted to SICU ill patients is evident and has been validated in our study through the analysis of ROC curves.On this basis, researchers are actively engaged in the pursuit of novel and more straightforward prognostic markers.The analysis of ROC curves demonstrate that the AUC of the B/A ratio closely approximates the AUC of both the APACHE II score and SOFA score.Furthermore, when these three indices are combined, the AUC of the comprehensive index surpasses that of any individual index.This finding implies that B/A improves the prognostic predictive capacity of traditional scoring indicators, offering a novel viewpoint for clinicians and caregivers.
The current study has several advantages.First, the present study was innovative in exploring the correlation between B/A, a clinical indicator, and prognosis for SICU patients.Second, the study was more comprehensive in using 30-day and 90-day mortality to represent shortterm prognosis.Finally, the sample size of this study was relatively large, and it is a large population-based realworld study.
However, this study still had some limitations.First, this study was a retrospective analysis with some bias.In addition, this study explored the correlation between B/A and short-term prognosis based on the initial value at the time of admission to the ICU, and did not further evaluate the correlation between B/A and long-term prognosis, and the dynamic changes of B/A levels.Finally, our analysis was limited to all-cause mortality and did not explore specific causes of death.Therefore, rigorously designed prospective studies are still needed to validate the findings of this study.

Conclusion
To summarize, elevated B/A level (> 9.69) on admission was an independent risk factor for increased short-term mortality in SICU patients, and had some potential application as a clinically simple, inexpensive and easily accessible biomarker.
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Fig. 2 Fig. 3
Fig. 2 RCS curves of the relationship between B/A values and all-cause mortality risk in patients admitted to SICU

Table 1
Basic clinical characteristics of the study populationSOFA sequential organ failure assessment, SAPS II simplified acute physiology score II, WBC white blood cell, BUN blood urea nitrogen, B/A blood urea nitrogen to serum albumin ratio, MV mechanical ventilation, ARF acute respiratory failure, CKD chronic kidney disease, AMI acute myocardial infarction, SAH subarachnoid hemorrhage, AKI acute kidney injury, ICU intensive care unit

Table 2
Admission characteristics of patients admitted to the SICU

Table 3
Comparison of all-cause mortality among different groups B/A blood urea nitrogen to serum albumin ratio

Table 4
Multivariate Cox regression analysis of the association between different B/A levels and all-cause mortalityModel I adjusted for nothingModel II adjusted for age, SOFA score, WBC, hemoglobin, hematocrit, platelet, creatinine, bicarbonate, glucose, phosphorus, magnesium, chlorine, potassium Model III adjusted for model II plus MV, ARF, AMI, atrial fibrillation, SAH, cirrhosis, sepsis, CKD, malignancy, peripheral vascular disease, severe liver disease, AKI, paraplegia HR hazard ratio, 95% CI 95% confidence interval, B/A blood urea nitrogen to serum albumin ratio, SOFA sequential organ failure assessment, WBC white blood cell, MV mechanical ventilation, ARF acute respiratory failure, AMI acute myocardial infarction, SAH subarachnoid hemorrhage, CKD chronic kidney disease, AKI acute kidney injury